US7664367B2 - Information processing device - Google Patents
Information processing device Download PDFInfo
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- US7664367B2 US7664367B2 US11/047,733 US4773305A US7664367B2 US 7664367 B2 US7664367 B2 US 7664367B2 US 4773305 A US4773305 A US 4773305A US 7664367 B2 US7664367 B2 US 7664367B2
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- rate
- recording
- coding
- recording medium
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N9/00—Details of colour television systems
- H04N9/79—Processing of colour television signals in connection with recording
- H04N9/80—Transformation of the television signal for recording, e.g. modulation, frequency changing; Inverse transformation for playback
- H04N9/804—Transformation of the television signal for recording, e.g. modulation, frequency changing; Inverse transformation for playback involving pulse code modulation of the colour picture signal components
- H04N9/8042—Transformation of the television signal for recording, e.g. modulation, frequency changing; Inverse transformation for playback involving pulse code modulation of the colour picture signal components involving data reduction
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N19/00—Methods or arrangements for coding, decoding, compressing or decompressing digital video signals
- H04N19/10—Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using adaptive coding
- H04N19/134—Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using adaptive coding characterised by the element, parameter or criterion affecting or controlling the adaptive coding
- H04N19/146—Data rate or code amount at the encoder output
- H04N19/152—Data rate or code amount at the encoder output by measuring the fullness of the transmission buffer
Definitions
- the present invention relates to an information processing device, examples of which are an information recording device for coding an information signal such as image and audio and recording the information signal on a recording medium and an information transmitting device for coding the information signal and transmitting it via a transmission line.
- a magnetic tape has been mainly used as a recording medium on which a coded information signal such as image and audio is recorded.
- recording media of different types such as an optical disk, a hard disk and a semiconductor memory
- a recordable data volume per unit time is fixed due to its structural restrictions, in response to which the image and audio are also to be coded based on a fixed rate.
- a recordable data volume per unit time is optionally determined as far as the recording is carried out to any of the media at a maximum recording speed thereof or below. Therefore, when the image and audio to be recorded on any of the media are coded, a relevant coding amount can be changed depending on the complexity of the image and audio. In other words, a generally called variable rate is available in such a medium.
- variable rate When the variable rate is employed as the coding amount in the coding process, the coding amount to be allocated to the information signal of a high complexity can be increased, while the coding amount to be allocated to the information signal of a less complexity can be reduced. In the foregoing manner, when the variable rate is compared to the fixed rate based on the same total coding amount, an overall quality in using the variable rate can be improved.
- a method is disclosed in No. 3375851 of the Japanese Patent Applications.
- recording data is temporarily recorded in a temporary memory device and thereafter actually recorded. More specifically, the data stored in the temporary memory device is immediately written in the recording medium during the time when the coding rate continuously stays below a maximum value of a rate at which the data of the memory device can be recorded on the recording medium (hereinafter, referred to a maximum recoding rate) by a recorder.
- the data which has not been recorded yet is stored in the temporary memory device as recording-standby data, and then written in the recording medium.
- an available capacity of the temporary memory device is monitored so that the coding amount is controlled in such manner that the coding amount exceeding the available capacity of the temporary memory device is not allocated.
- the coding amount to be allocated to the information signal of a higher complexity cannot be increased.
- the coding amount flexibly corresponding to the complexity of the information signal cannot be allocated, which remarkably deteriorates a quality of the coded information signal, in particular, the quality of a high-complexity part.
- a main object of the present invention is to provide an information processing device (information recording device or information transmitting device) capable of preventing a part of a high complexity from significantly deteriorating.
- Another main object of the present invention is to provide an information processing device (information recording device or information transmitting device) capable of properly allocating a coding amount in accordance with complexity of an information signal even in the case in which a coding average rate of the information signal exceeds a maximum recording rate of a recording medium or a transmission rate of a transmission line.
- the information processing device (information recording device or information transmitting device) according to the present invention comprises:
- a rate controller for controlling a coding rate of the coder in accordance with complexity of the information signal and controlling a coding amount per unit time in the coding process so that an average value of the coding amount can be approximate to an average rate which is previously set;
- an information processing unit for processing the data memorized in the temporary memory unit.
- the information processing unit include a recorder for recording the data memorized in the temporary memory unit on a recording medium and a transmitter for transmitting the data memorized in the temporary memory unit to the transmission line.
- the information processing unit measures an information processing rate in the information processing.
- the rate controller adjusts the average rate so that the average rate is below the information processing rate measured by the information processing unit.
- the rate controller compares a threshold value of a used amount of the temporary memory unit which is previously set and an actually used amount of the temporary memory unit and reduces the average rate when the used amount exceeds the threshold value.
- the information processing device (information recording device or information transmitting device), in which the coding amount can be appropriately allocated in accordance with the complexity of the information signal even in the case in which the coding average rate of the information signal exceeds the information processing rate (recording rate of recording medium or transmission rate of transmission line) so that the high-complexity part can be prevented from significantly deteriorating in its quality, can be provided.
- FIG. 1 is a block diagram illustrating a constitution of an information recording device according to Embodiment 1 of the present invention.
- FIG. 2A is an illustration of an example of a rate control operation according to the Embodiment 1.
- FIG. 2B is an illustration of an example of a rate control operation according to the Embodiment 1.
- FIG. 3A is an illustration of an example of a rate control operation according to the Embodiment 1.
- FIG. 3B is an illustration of an example of a rate control operation according to the Embodiment 1.
- FIG. 4 is a block diagram illustrating a constitution of an information recording device according to Embodiment 2 of the present invention.
- FIG. 5A is an illustration of an example of a rate control operation according to the Embodiment 2.
- FIG. 5B is an illustration of an example of a rate control operation according to the Embodiment 2.
- FIG. 6A is an illustration of an example of a rate control operation according to the Embodiment 2.
- FIG. 6B is an illustration of an example of a rate control operation according to the Embodiment 2.
- FIG. 7 is a block diagram illustrating a constitution of an information transmitting device according to Embodiment 3 of the present invention.
- FIG. 8 is a block diagram illustrating a constitution of an information transmitting device according to Embodiment 4 of the present invention.
- FIG. 9 is a block diagram illustrating a constitution of an information recording device to which the present invention is implemented.
- FIG. 10A is an illustration of an example of a rate control operation in the information recording device of FIG. 9 .
- FIG. 10B is an illustration of an example of a rate control operation in the information recording device of FIG. 9 .
- FIG. 11A is an illustration of an example of a rate control operation in the information recording device of FIG. 9 .
- FIG. 11B is an illustration of an example of a rate control operation in the information recording device of FIG. 9 .
- FIG. 9 is a block diagram illustrating the constitution of the information recording device in which the variable rate control method is employed.
- an information signal to be recorded is subjected to a predetermined process in a coder 101 and thereafter temporarily stored in a temporary memory unit 102 .
- the post-coding data stored in the temporary memory unit 102 is sequentially recorded on a recording medium 104 by a recorder 103 .
- a controller 106 controls the foregoing successive recording process.
- a rate controller 105 serves to control a coding amount to be allocated in accordance with complexity of the inputted information signal. More specifically, the coding amount to be allocated is increased in the case of the information signal of a high complexity, while the coding amount to be allocated is reduced in the case of the information signal of a low complexity. Further, in the variable rate control method, the coding amount is controlled so that an average value of a total coding amount per unit time can be approximate to an average rate.
- a controller 106 monitors an available capacity of the temporary memory unit 102 , and the rate controller 105 controls a maximum value of the coding amount in accordance with the available capacity so that a system is prevented from breaking down due to the shortage of the available capacity of the temporary memory unit 102 .
- FIGS. 10A and 10B respectively show an example of the variable rate control.
- FIG. 10A shows a temporal transition of the coding amount
- FIG. 10B shows a relevant used amount of the temporary memory unit 102 .
- the rate controller 105 executes the rate control in such manner that the information signal of a high complexity is coded at a coding rate exceeding the average rate, while the information signal of a low complexity is coded at a coding rate lower than the average rate so that the coding rate can be averagely approximate to the average rate on the whole.
- FIG. 10B shows the used amount of the temporary memory unit 102 .
- maximum recording rate a rate at which the recording from the memory unit 103 to the recording medium 104 can be carried out
- the data stored in the temporary memory unit 102 is immediately written in the recording medium 104 . Therefore, the data is not retained in the temporary memory unit 102 .
- the coding rate starts to exceed the maximum recording rate
- the data which is coded but has not been recorded yet is stored in the temporary memory unit 102 as recording-standby data.
- the recording process of the data stored in the temporary memory unit 102 as the recording-standby data is advanced, as a result of which the used amount (storage amount) of the temporary memory unit 102 is gradually lessened.
- the rate controller 105 monitors the available capacity of the temporary memory unit 102 and controls the coding amount to prevent the allocation of the coding amount exceeding the available capacity of the temporary memory unit 102 .
- recording rates of recording media such as an optical disk, a hard disk and a semiconductor memory are increasingly improved to be higher, in response to which a recording device adapted to increase a coding rate of the information signal and thereby record the data in a higher quality has been developed to keep up with the ongoing improvement of the recording rates of the recording medium.
- the recording media currently available include not only a newly-developed recording medium achieving a higher recording rate but also a conventional recording medium still employing a low recording rate, and the recording device is therefore required to perform the recording process with respect to the recording media respectively employing the different recording rates. Accordingly, in some cases, the recording device results in recording the data in the state in which the coding average rate of the information signal exceeds the recording rate of the relevant recording medium.
- FIGS. 11A and 11 b respectively show an example of the variable rate control when the coding average rate of the information signal exceeds the maximum recording rate of the recording medium.
- FIG. 11A shows a temporal transition of the coding amount
- FIG. 11B shows a relevant used amount of the temporary memory unit 102 .
- the storage volume of the temporary memory unit 102 gradually increases as shown in FIG. 11B .
- the rate controller 105 when detecting that the available capacity of the temporary memory unit 102 is gradually lessened, controls the coder 101 so as to control the coding amount (hereinafter, such a control is referred to as first control). At that time, the rate controller 105 also controls the average coding amount per unit time so as to be approximate to the average rate (hereinafter, such a control is referred to as second control).
- the coder 101 is soon to be controlled by the second control so as to increase the coding amount.
- the available capacity of the temporary memory unit 102 consequently remains a small range.
- the device operates in the same manner when a transmission rate of a transmission line falls below the coding average rate.
- the coding amount to be allocated to the information signal of a high complexity cannot be increased.
- the coding amount to be allocated cannot respond to the complexity of the information signal, and the quality of the coded information signal, in particular, the quality of the high-complexity part remarkably deteriorates.
- FIG. 1 is a block diagram illustrating a constitution of an information recording device according to the Embodiment 1.
- the information recoding device comprises a coder 1 for coding an information signal to be recorded (for example, image signal), a temporary memory unit 2 A for temporarily storing the coded data, a recording medium 4 on which the data stored in the temporary memory unit 2 A is recorded, a recorder 3 A for recording the data stored in the temporary memory unit 2 A on the recording medium 4 and measuring a recording rate of the recording medium 4 during the recording process, a rate controller 5 A for controlling a coding rate in accordance with complexity of the inputted information signal, a controller 6 for generally controlling the successive recording process, and a reproducer 7 for reading the data from the recording medium 4 .
- the recorder 3 A constitutes the information processing unit.
- an image having a picture pattern in which the coding amount is relatively increased and the like based on the same compression rate, or an image which significantly deteriorates when compressed based on the same coding amount is judged to be of a high complexity. More specifically, as a high frequency element included in a two-dimensional image after an orthogonal transformation is executed thereto, which is used for MPEG, increases, the image is judged to be of a higher complexity.
- the information signal to be recorded is subjected to a predetermined coding process in the coder 1 , and thereafter temporarily stored in the temporary memory unit 2 A.
- the post-coding data stored in the temporary memory unit 2 A is sequentially recorded on the recording medium 4 by the recorder 3 A.
- the rate controller 5 A measures the complexity of the inputted information signal and serially controls the coding amount for each information signal based on the measurement result (complexity). More specifically, the coding amount to be allocated to a region of the information signal which is judged to be of a high complexity is increased, while the coding amount to be allocated to the information signal measured to have a less complexity is reduced.
- the rate controller 5 A executes the variable rate control, by which the coding amount is controlled so that the average value of the general coding amount per unit time can be approximate to the designated average rate.
- the rate controller 5 A a predetermined and recorded value is used as the coding average rate to be set.
- the recorder 3 A measures the recording rate in the recording process implemented by the recording medium 4 and transmits the measurement result (recording rate) to the rate controller 5 A.
- the recording rate corresponds to the information processing rate.
- the rate controller 5 A obtains the recording rate for the recording medium 4 , which is received from the recorder 3 A, and determines and resets the coding average rate so that the coding average rate is equal to or below the recording rate for the recording medium 4 .
- FIGS. 2A , 2 B, 3 A and 3 B show examples of the rate control in the information recording device according to the present embodiment.
- FIGS. 2A and 3A respectively show a temporal transition of the coding amount.
- FIGS. 2B and 3B respectively show a relevant used amount of the temporary memory unit 2 A.
- FIGS. 2A and 2B show an example of the rate control when the coding average rate is set to be equal to or below the recording rate for the recording medium 4 .
- FIGS. 3A and 3B show an example of the rate control when the coding average rate is set to be equal to or above the recording rate for the recording medium 4 .
- the coding average rate is previously set to be below the recording rate, and the average rate is previously recorded in the rate controller 5 A.
- the rate controller 5 A in an initial stage after the commencement of the control, starts to code the information signal based on the coding average rate set to be lower than the recording rate.
- the recorder 3 A records the data read from the temporary memory unit 2 A on the recording medium 4 and simultaneously measures the relevant recording rate, and confirms the recording rate at a time t 1 .
- the measurement result of the recording rate is transmitted from the recorder 3 A to the rate controller 5 A.
- the rate controller 5 A renders the judgment that the received measurement result of the recording rate is higher than the recorded coding average rate.
- the rate controller 5 A based on the foregoing judgment, does not change the recorded average rate and continuously uses it for the coding process.
- the rate controller 5 A instructs the coding process by the coder 1 and the recording process by the recorder 3 to be continued, and monitors the complexity of the control signal to be coded to verify whether or not it is high.
- the coding process is carried out at a coding rate exceeding the predetermined average rate.
- the coding process is carried out at a coding rate below the average rate. Thereby, the coding rate is controlled by the rate controller 5 A so that the average value of the coding rate can be approximate to the average rate.
- the coding process is carried out at a high coding rate in the temporal region of the information signal of the high complexity in order to prevent the deterioration of the signal, while the coding process is carried out at a low coding rate in the temporal region of the information signal of the low complexity in order to prevent the allocation of any redundant code.
- any data which has not been recorded yet is sequentially stored in the temporary memory unit 2 A as the recording-standby data.
- the data stored in the temporary memory unit 2 A is read from the temporary memory unit 2 A and written in the recording medium 4 .
- the data storage volume (used amount) of the temporary memory unit 2 A is thereby gradually lessened.
- the coding average rate is set to be higher than the recording rate, and the average rate is previously recorded in the rate controller 5 A, though the relationship between the coding average rate and the recording rate is unbeknownst to the device side.
- the rate controller 5 A in the initial stage after the commencement of the control, starts to code the information signal based on the coding average rate set to be higher than the recording rate.
- the recorder 3 A records the data read from the temporary memory unit 2 A on the recording medium 4 and simultaneously measures the relevant recording rate, and confirms the recording rate at the time t 1 .
- the measurement result of the recording rate is transmitted from the recorder 3 A to the rate controller 5 A.
- the rate controller 5 A renders the judgment that the received measurement result of the recording rate is higher than the recorded coding average rate.
- the rate controller 5 A based on the foregoing judgment, resets the average rate so as to fall below the recording rate.
- the rest of the control operation is the same as described in FIGS. 2A and 2B .
- the rate control can be properly executed in such manner that the coding amount to be allocated to the information signal of a high complexity is increased and the coding amount to be allocated to the information signal of a low complexity is reduced.
- the recording rate can be measured in the recorder 3 A, for example, as follows. A response time from the time when the recording is ordered to the time when the recording is completed with respect to the recording medium 4 is measured, and the recording rate can be calculated from the response time and the data volume recorded in response to the recording order. As an alternative method, a predetermined volume of data is consecutively recorded on the recording medium 4 , and the recording rate can be calculated from a time length required for recording all of the data and the recorded data volume.
- the measurement method is not limited to the foregoing examples allowing any other method to be employed as far as the recording rate can be measured.
- the recording medium 4 there is a recording medium whose recording rate or information relating to the recording rate is previously memorized in a predetermined memory region of the medium itself.
- the information relating to the recording rate recorded on the recording medium 4 may be read out via the reproducer 7 and used, which eliminates the measurement of the recording rate.
- the recording rate is measured in the predetermined time length t 1 after the commencement of the recording, and the coding average rate is determined based on the measurement result of the recording rate.
- the average rate is thereafter continuously used to implement the coding process.
- the recording rate of the recording medium 4 may change over time.
- the recording rate may be continuously measured during the recording process so that the recording rate is successively renewed.
- the coding average rate may be changed in compliance with the change of the recording rate.
- the recording rate may be measured in the recorder 3 A prior to the commencement of the coding process of the information signal.
- the recorder 3 A when detecting that the recording medium 4 as a recording object is exchanged, informs the rate controller 5 A of the exchange.
- the rate controller 5 A is notified of the exchange of the recording medium 4 by the recorder 3 A and accordingly changes the currently set average rate back to an initial value which is previously set. In the foregoing manner, the control operation flexibly responding to the change of the recording medium 4 can be carried out.
- the recording medium 4 newly set in the information recording device may possibly have been used for the recording process in the same information recording device. In such a case, it is preferable to reuse the average rate set in the previous recording process in order to improve the control efficiency and control precision. Below is described a constitution in the case of executing the foregoing control operation.
- the recorder 3 A writes the average rate set by the rate controller 5 A in the recording medium 4 during the recording process.
- the recorder 3 A continues to record the average rate during the time when information recording process is continued, and the most update average rate is thereby recorded on the recording medium 4 .
- the reproducer 7 After the recording process is completed and the recording medium 4 is removed from the recorder 3 A, and then, the recording medium 4 is set in the recorder 3 A again, the reproducer 7 reads the information from the recording medium 4 when the recording medium 4 is set. Further, the reproducer 7 transmits the read information to the rate controller 5 A.
- the rate controller 5 if the information relating to the average rate is stored in the received information, sets the average rate as an initial value of the average rate of the newly set recording medium 4 .
- the average rate set in the recording medium 4 in the previous recording process can be reused as the initial value of the average rate when the recording process is implemented to the recording medium 4 again.
- the information recording device includes a constitution for memorizing the average rate and the recording rate.
- the individual identification information of the recording medium 4 may be the individual identification information recorded by a manufacturer before the product shipment. Alternatively, the individual identification information may be newly set in the information recording device and then written in the recording medium 4 via the recorder 3 A.
- the reproducer 7 reads the individual identification information of the recording medium 4 written therein and transmits it to the controller 6 . Then, the information recording device records the coded information on the recording medium 4 .
- the rate controller 5 A associates the recording rate of the recording medium 4 measured by the recorder 3 A and the average rate set by the rate controller 5 A with the received individual identification information of the recording medium 4 and instructs the memory unit 8 to memorize it.
- the reproducer 7 reads the individual identification information of the set recording medium 4 and transmits it to the rate controller 5 A.
- the rate controller 5 A judges whether or not the recording rate and the average rate associated with the individual identification information read by the reproducer 7 are in the recorder 8 .
- the rate controller 5 A reads the information from the recorder 8 and sets the read recording rate and average rate as the initial values of the recording rate and the average rate of the recording medium 4 newly set.
- the average rate and the recording rate set in the recording medium 4 in the previous recording process can be reused as the initial values of the average rate and the recording rate when the recording process is implemented to the recording medium 4 again.
- FIG. 4 is a block diagram illustrating a constitution of an information recording device according to the Embodiment 2.
- the information recording device according to the present embodiment comprises a coder 1 , a temporary memory unit 2 B, a recorder 3 B, a recording medium 4 , a rate controller 5 B, a controller 6 , a reproducer 7 and a recorder 8 .
- the coder 1 , temporary memory unit 2 B, recorder 3 B, recording medium 4 , controller 6 , reproducer 7 and recorder 8 are basically adapted to function in the same manner as in the Embodiment 1.
- the recorder 3 B constitutes the information processing unit. However, the recorder 3 B does have the function of measuring the recording rate and the function of transmitting the measured recording rate to the rate controller 5 B.
- the present embodiment is characterized in the control operations implemented by the temporary memory unit 2 B and the rate controller 5 B. According to the present embodiment, the recording rate corresponds to the information processing rate.
- the recording process of the information processing device according to the present embodiment is basically the same as in the Embodiment 1. However, the average rate is adjusted based on the result of comparing the recording rate and the average rate in the Embodiment 1. In contrast, according to the present embodiment, the average rate is adjusted based on a result of comparing the used amount of the temporary memory unit 2 B and a threshold value thereof. Below is given the detailed description.
- a predetermined value is used as the coding average rate to be set.
- the rate controller 5 B constantly monitors the current used amount (data storage volume) of the temporary memory unit 2 B.
- the rate controller 5 B compares the used amount (data storage volume) of the temporary memory unit 2 B being currently monitored and the threshold value of the used amount of the temporary memory unit 2 B which is previously recorded and determines and resets the coding average rate so that the monitoring result (measured value of used amount) is equal to below the threshold value.
- the coder 1 when the used amount of the temporary memory unit 2 B exceeds the predetermined threshold value, the coder 1 is controlled so as to reduce the coding average rate, and in particular, the coder 1 is preferably controlled so as to reduce the average rate through stages.
- the coding average rate may be increased, in which case the coding average rate is preferably increased through stages.
- FIGS. 5A , 5 B, 6 A and 6 B respectively show a temporal transition of the coding amount, while FIGS. 5B and 6B respectively show the relevant used amount of the temporary memory unit 2 B.
- FIGS. 5A and 5B show the example of the rate control in which the coding average rate is set to equal to or lower than the recording rate for the recording medium 4 .
- FIGS. 6A and 6B show the example of the rate control in which the coding average rate is set to be equal to or above the recording rate for the recording medium 4 .
- a threshold value Th is set for the used amount of the temporary memory unit 2 B, and the set threshold value Th is memorized in the rate controller 5 B.
- the threshold value Th corresponds to a relationship between the average rate and the recording rate set in the information recording device.
- the coding average rate can be judged to be more possibly below the recording rate when the used amount of the temporary memory unit 2 B is equal to or below the threshold value Th.
- the coding average rate can be judged to be more possibly above the recording rate when the used amount of the temporary memory unit 2 B exceeds the threshold value Th.
- the threshold value Th is previously set to such a value that presumably enables the foregoing judgments to be made.
- the foregoing judgments can be made based on the phenomenon that the used amount of the temporary memory unit 2 B is increased (stored data volume is increased) when the coding average rate is higher than the recording rate and the coding process consequently more advances than the recording process.
- the rate controller 5 B taking advantage of the phenomenon, sets the threshold value Th and monitors the used amount of the temporary memory unit 2 B using the threshold value Th so that the relationship between the average rate and the recording rate can be indirectly accurately known.
- the used amount of the temporary memory unit 2 B (data storage volume) is calculated from, for example, a relative difference between the first address at which the data writing starts and the last address at which the data writing ends of the temporary memory unit 2 B.
- the coding average rate is previously set to be lower than the recording rate, and the average rate is previously memorized in the rate controller 5 B.
- the relationship between the two rates is not grasped on the device side.
- the rate controller 5 B initially starts to code the information signal based on the coding average rate set to be lower than the recording rate.
- the rate controller 5 B measures the used amount of the temporary memory unit 2 B and confirms the used amount at a time t 2 .
- the measurement result of the used amount of the temporary memory unit 2 B does not exceed the recorded threshold value and constantly stays at a low level.
- the rate controller 5 B detects the foregoing state and continuously uses the recorded average rate without changing it for the coding process.
- the rate controller 5 B instructs the coder 1 and the recorder 3 B to respectively continue the coding process and the recording process. Then, the rate controller 5 B monitors whether or not complexity of the control signal to be coded is high. In a temporal region in which the information signal is judged to have a high complexity, as shown in FIG. 5B , the coding process is carried out at a coding rate higher than the previously set average rate, while the coding process is carried out at a coding rate lower than the average rate in a temporal region of the information signal judged to have a low complexity. Thereby, the coding rate is controlled by the rate controller 5 B so that the average value of the coding rate can be approximate to the average rate.
- the coding process is carried out at a high coding rate in the temporal region of the information signal having a high complexity so that the signal is not deteriorated, while the coding process is carried out at a low coding rate in the temporal region of the information signal having a low complexity to prevent the allocation of any redundant code.
- the variation state of the cording rate by the foregoing control and the variation state of the used amount of the temporary memory unit 2 B consequently conforms to the control state shown in FIG. 2B .
- the coding average rate is previously set to be higher than the recording rate, and the average rate is previously recorded in the rate controller 5 B.
- the rate controller 5 B starts to code the information signal based on the coding average rate set to be higher than the recording rate.
- the rate controller 5 B measures the used amount of the temporary memory unit 2 B at each predetermined period tw.
- the rate controller 5 B measuring the used amount of the temporary memory unit 2 B judges that the measurement result exceeds the threshold value Th. Then, the rate controller 5 B judges it is highly possible that the current coding average rate exceeds the set recording rate. As a result of making the judgment, the rate controller 5 B resets the coding average rate to a slightly lower value than the current value. After that, the coding process and the recording process are continued.
- the measurement of the used amount of the temporary memory unit 2 B, the comparison of the measurement result and the threshold value Th and the resetting of the average rate based on the comparison result are repeatedly carried out per period tw. Accordingly, the coding average rate gradually decreases until the used amount of the temporary memory unit 2 B equals to or falls below the threshold value Th. In FIG. 6A , the used amount of the temporary memory unit 2 B starts to equal to or fall below the threshold value at a time t 3 .
- a control method after the used amount of the temporary memory unit 2 B exceeding the threshold value Th is reduced to the threshold value Th or below is implemented as follows.
- the measurement of the used amount of the temporary memory unit 2 B and the comparison of the measurement result and the threshold value Th are continuously repeated per period tw, and the average rate is increased every time when it is judged from the comparison result that the measurement result of the used amount is below the threshold value Th. Thereby, the coding average rate is gradually increased until the used amount of the temporary memory unit 2 B equals to or exceeds the threshold value Th.
- the threshold value Th in implementing the control operation of reducing the coding average rate and the threshold value Th in implementing the control operation of increasing the coding average rate may be different values, which are memorized in the rate controller 5 B to be used.
- FIGS. 6A and 6B show a result obtained based on the second control method.
- the average rate can be set to be below the recording rate.
- the rate control can be properly carried out in such manner that an increased coding amount is allocated to the information signal of a higher complexity and an reduced coding amount can be allocated to the information signal of a lower complexity.
- the present embodiment can employ the following constitution.
- the recorder 3 B when detecting that the recording medium 4 as the recording object is exchanged, informs the rate controller 5 B of the exchange.
- the exchange of the recording medium 4 may be detected from the information of the recording medium 4 read by the reproducer 7 .
- the rate controller 5 B is informed of the exchange of the recording medium 4 by the recorder 3 B and accordingly resets the currently set average rate to the previously set initial value. Thereby, the control operation in compliance with the change of the recording medium 4 can be executed.
- the recording medium 4 newly set in the information recording device may possibly have been subjected to the recording process in the past.
- the average rate set in the previous recording process is preferably reused in terms of the control efficiency and control precision. Below is described a constitution in the case of reusing the average rate.
- the recorder 3 B writes the average rate set by the rate controller 5 B in the recording medium 4 during the information recording process.
- the recorder 3 B continues to record the average rate on the recording medium 4 while the recording process is continued, and the most update average rate is thereby recorded on the recording medium 4 .
- the reproducer 7 When the recording medium 4 is set in the information recording device again after the information recording process is completed and the recording medium 4 is removed from the information recording device, the reproducer 7 first reads the information from the recording medium 4 and transmits the information to the rate controller 5 B when the recording medium 4 is set.
- the rate controller 5 B if the information relating to the average rate is included in the information transmitted from the reproducer 7 , sets the average rate as an initial value of the average rate of the recording medium 4 newly set in the device. In the foregoing manner, the average rate set in the recording medium 4 in the previous recording process can be reused as the initial value of the average rate when the recording process is executed to the recording medium 4 again.
- the individual identification information of the recording medium 4 may be such information recorded by a manufacturer before the product shipment, or the information may be newly set in the information recording device and then written in the recording medium 4 via the recorder 3 B.
- the reproducer 7 reads the individual identification information written in the recording medium 4 and transmits it to the controller 6 . Then, the information recording device records the coded information on the recording medium 4 .
- the rate controller 5 B associates the average rate set by the rate controller 5 B with the received individual identification information of the recording medium 4 and instructs the memory unit 8 to memorize it.
- the reproducer 7 reads the individual identification information of the set recording medium 4 and transmits it to the rate controller 5 B.
- the rate controller 5 B judges whether or not the information of the average rate associated with the individual identification information read by the reproducer 7 is in the recorder 8 , and if the information of the average rate is present in the recorder 8 , reads the information from the recorder 8 to thereby set the read average rate as an initial value of the average rate of the recording medium 4 newly set.
- the average rate set in the recording medium 4 in the previous recording process can be reused as the initial value of the average rate when the recording process is implemented to the recording medium 4 again.
- the rate controller 5 B may increase the average rate in adjusting the average rate.
- the average rate is set to stay below the initial value of the average rate. More specifically, it is preferable to control the average rate to be set so as to constantly fall below the initial value of the average rate, which improves the control precision.
- FIG. 7 is a block diagram illustrating a constitution of an information transmitting device according to the Embodiment 3. The constitution of the information transmitting device according to the Embodiment 3 is described referring to FIG. 7 .
- the information transmitting device comprises a coder 1 for coding an information signal to be transmitted, a temporary memory unit 2 A for temporarily storing the coded data, a rate controller 5 A for controlling a coding rate in accordance with the complexity of the inputted information signal, a transmitter 10 A for transmitting the data stored in the temporary memory unit 2 A to a transmission line and measuring a transmission rate of the transmission line and a controller 9 for generally controlling the successive recording process.
- the transmitter 10 A constitutes the information processing unit.
- the information transmitting device employs the same constitution and control method for coding the information signal as in the Embodiment 1.
- the information transmitting device according to the present embodiment is different to the information recording device according to the Embodiment 1 in that the coded signal is not recorded on the recoding medium 4 but transmitted to the transmission line. Therefore, any identical or similar component is provided with the same reference symbol.
- the information signal to be transmitted is subjected to a predetermined coding process in the coder 1 , and then, temporarily stored in the temporary memory unit 2 A.
- the coded data stored in the temporary memory unit 2 A is sequentially transmitted to the transmission line by the transmitter 10 A.
- the rate controller 5 A controls the coding amount to be allocated in accordance with the complexity of the inputted information signal.
- the control method for the coding amount to be allocated is the same as in the Embodiment 1.
- the rate controller 5 A records and uses a predetermined value as the coding average rate while executing the following control.
- the rate controller 5 A obtains the transmission rate of the transmission line from the transmitter 10 A and compares the transmission rate to the coding average rate. Then, the rate controller 5 A resets the coding average rate so as to equal to or fall below the transmission rate.
- the transmission rate corresponds to the information processing rate.
- the rate control of the information transmitting device is not any different to the description in the Embodiment 1, and therefore is not described here again.
- the rate is controlled in such manner as shown in FIGS. 2A , 2 B, 3 A and 3 B.
- To read the transmission rate of the transmission rate instead of the recording rate of the recording medium in the Embodiment 1 results in the transmission rate control according to the present embodiment.
- the rate control can be properly carried out in such manner that the coding amount to be allocated to the information of a higher complexity can be increased and the coding amount to be allocated to the information signal of a low complexity can be reduced.
- the transmission rate can measured in the transmitter 10 A as follows. A response time from the time when the transmission is ordered to the time when the transmission is complete dismeasured while the transmission to the transmission line is continued. The transmission rate is calculated from the response time and a data volume transmitted according to the transmission order. As an alternative method, a predetermined volume of data is continuously transmitted via the transmission line, and the transmission rate can be calculated from a time length consumed until the transmission of all of the data is completed and the transmitted data volume. However, there is no limitation to the calculation method as far as the transmission rate can be measured.
- a transmission rate when the transmission line is established may be used as the transmission rate of the transmission line.
- the average rate can be set in such manner that the transmission rate is measured within a predetermined time length after the transmission starts, and the coding average rate is determined in compliance with the measured value of the transmission rate without ever changing the average rate thereafter.
- the transmission rate may be continuously measured during the transmission so as to change the coding average rate in compliance with the change of the transmission rate, if any. Further, the transmission rate may be measured in the transmitter 10 A before the coding process of the information signal starts.
- FIG. 8 is a block diagram illustrating a constitution of an information transmitting device according to the Embodiment 4. A constitution of the information transmitting device according to the present embodiment is described referring to FIG. 8 .
- the information transmitting device comprises a coder 1 for coding an information signal to be transmitted, a temporary memory unit 2 A for temporarily storing the coded data, a rate controller 5 A for controlling a coding rate in accordance with the complexity of the inputted information signal, a transmitter 10 B for transmitting the data stored in the temporary memory unit 2 A to a transmission line and measuring a transmission rate of the transmission line and a controller 9 for generally controlling the successive recording process.
- the transmitter 10 B constitutes the information processing unit.
- the information transmitting device employs the same constitution and control method for coding the information signal as in the Embodiment 2.
- the information transmitting device according to the present embodiment is different to the information recording device according to the Embodiment 2 in that the coded signal is not recorded on the recoding medium 4 but transmitted to the transmission line. Therefore, any identical or similar component is provided with the same reference symbol.
- the information signal to be transmitted is subjected to a predetermined coding process in the coder 1 , and then, temporarily stored in the temporary memory unit 2 A.
- the coded data stored in the temporary memory unit 2 A is sequentially transmitted to the transmission line by the transmitter 10 A.
- the rate controller 5 A controls the coding amount to be allocated in accordance with the complexity of the inputted information signal.
- the control method for the coding amount allocated is the same as in the Embodiment 2.
- the rate controller 5 A records and uses a predetermined value as the coding average rate while executing the following control.
- the rate controller 5 b monitors the usage amount of the temporary memory unit 2 A and compares it to the threshold value Th. Then, the rate controller 5 B determines and resets the coding average rate in accordance with the comparison result.
- the transmission rate corresponds to the information processing rate.
- the rate control of the information transmitting device according to the present embodiment is not any different to the description in the Embodiment 2, and therefore is not described here again.
- the rate is controlled in such manner as shown in FIGS. 5A , 5 B, 6 A and 6 B.
- To read the transmission rate of the transmission rate instead of the recording rate of the recording medium in the Embodiment 2 results in the transmission rate control according to the present embodiment.
- the rate controller 5 B may increase the average rate in adjusting the average rate, in which case the rate controller 5 B sets the average rate so that the average rate does not exceed the initial value of the average rate. It is preferable to control the average rate to be set so as to constantly stay below the initial value of the average rate, which further improves the control precision.
- the rate control can be properly carried out in such manner that the coding amount to be allocated to the information of a higher complexity can be increased and the coding amount to be allocated to the information signal of a low complexity can be reduced.
- a plurality of recording modes and transmission modes optionally selectable is set.
- the recording rate and the transmission rate are alternatively set.
- the recording rate and the transmission rate can be changed as a result of selecting the respective modes.
- the present invention is implemented to the device provided with the function of changing the rates, the same effect can be obtained changing the recording mode and the transmission mode without adjusting the average rate by the rate controller recited in the respective embodiments.
- the information recording device and information transmitting device are capable of executing the variable-rate coding to the information signal. Therefore, the quality of the information signal can be generally equalized even in the case in which the coding average rate exceeds the recording rate of the recording medium. Such an effect is advantageous for the information recording device for coding the information signal such as image and audio and recording the information signal on the recording medium. Further, the same effect can be achieved in the case of transmitting the coded data via the transmission line instead of recording the data on the recording medium.
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